Ways to Measure Central Tendency - Weebly



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|6.1 Discrete and Continuous Random Variables |

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|What is a random variable? | |

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|What is a probability distribution? | |

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|What is a discrete random variable? | |

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|Problem 1 – NHL Goals |

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|Define the random variable X = number of goals scored by a randomly selected team in a randomly selected game in the 2010 NHL regular season. The table |

|below gives the probability distribution of X: |

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|X: |

|0 |

|1 |

|2 |

|3 |

|4 |

|5 |

|6 |

|7 |

|8 |

|9 |

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|Probability: |

|0.061 |

|0.154 |

|0.228 |

|0.229 |

|0.173 |

|0.094 |

|0.041 |

|0.015 |

|0.004 |

|0.001 |

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|(a) Show that the probability distribution for X is legitimate. |

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|(b) Make a histogram of the probability distribution. Describe what you see. |

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|(c) What is the probability that the number of goals scored by a randomly selected team in a randomly selected game is at least 6? More than 6? |

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|Problem 2 – Coins |

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|(a) Construct a probability distribution for the number of heads in 4 tosses of a coin. |

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|(b) What is the probability that the number of heads in 4 tosses of a coin is at most 2? |

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|(c) What is the probability that the number of heads in 4 tosses of a coin is at least 1? |

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|What is the mean of a discrete random| |

|variable and how is it calculated? | |

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|Problem 3 – NHL revisited |

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|Calculate and interpret the mean of the random variable X in the NHL Goals example. |

|X: |

|0 |

|1 |

|2 |

|3 |

|4 |

|5 |

|6 |

|7 |

|8 |

|9 |

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|Probability: |

|0.061 |

|0.154 |

|0.228 |

|0.229 |

|0.173 |

|0.094 |

|0.041 |

|0.015 |

|0.004 |

|0.001 |

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|Problem 4 – Lottery |

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|Suppose you play a lottery game where you must choose a 3 digit number. You win $500 if you match all three numbers in the correct order. |

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|(a) Construct a probability distribution for the outcomes of playing this game. |

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|(b) What is the expected payoff from buying 1 ticket? What does this mean? |

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|What is the Expected Value? | |

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|How is the variance and st. dev. of a| |

|discrete random variable calculated? | |

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|Problem 5 – NHL revisited again! |

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|Calculate the variance and the standard deviation of the random variable X in the NHL Goals example. |

|X: |

|0 |

|1 |

|2 |

|3 |

|4 |

|5 |

|6 |

|7 |

|8 |

|9 |

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|Probability: |

|0.061 |

|0.154 |

|0.228 |

|0.229 |

|0.173 |

|0.094 |

|0.041 |

|0.015 |

|0.004 |

|0.001 |

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|How can we use a calculator to find | |

|the statistics of a discrete random | |

|variable? | |

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|What is a continuous random variable?| |

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|How do we display the distribution of| |

|a continuous random variable? | |

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|Problem 6 – Uniform Distribution |

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|(a) Draw a uniform distribution |

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|(b) Use the distribution to find [pic]. Now find |

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|(c) Calculate [pic] (d) Calculate [pic] |

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|(e) Calculate the probability that X is at most 0.5 or at least 0.8)[pic] |

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|Problem 7 – weight of 3 year old girls |

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|The weights of three-year-old girls closely follow a Normal distribution with a mean of [pic] = 30.7 pounds and a standard deviation of 3.6 pounds. |

|Randomly choose one three-year-old girl and call her weight X. Find the probability that the randomly selected three-year-old girl weighs at least 30 |

|pounds. |

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|6.2 Transforming and Combining Random Variables |

|Rules for Transforming and Random Variables: |

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|Problem 8 – Peachtree Community College Part I |

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|Peachtree Community College considers a student to be full-time if he or she is taking between 12 and 18 units. The number of units X that a randomly |

|selected full-time student is taking in the fall semester has the following distribution. |

|Number of Units (X) |

|12 |

|13 |

|14 |

|15 |

|16 |

|17 |

|18 |

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|Probability |

|0.25 |

|0.10 |

|0.05 |

|0.30 |

|0.10 |

|0.05 |

|0.15 |

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|Calculate and interpret the mean and standard deviation of X. |

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|At Peachtree Community College, the tuition for full-time students is $50 per unit. That is, if T = tuition charge for a randomly selected full-time |

|student, T = 50X. Here is the probability distribution for T and a probability histogram: |

|Tuition Charge (T) |

|$600 |

|$650 |

|$700 |

|$750 |

|$800 |

|$850 |

|$900 |

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|Probability |

|0.25 |

|0.10 |

|0.05 |

|0.30 |

|0.10 |

|0.05 |

|0.15 |

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|Calculate and interpret the mean and standard deviation of T. |

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|c) In addition to tuition charges, each full-time student at Peachtree Community College is assessed student fees of $100 per semester. If C = overall |

|cost for a randomly selected full-time student, C = 100 + T. Here is the probability distribution for C: |

|Overall Cost (C) |

|700 |

|750 |

|800 |

|850 |

|900 |

|950 |

|1000 |

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|Probability |

|0.25 |

|0.10 |

|0.05 |

|0.30 |

|0.10 |

|0.05 |

|0.15 |

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|Calculate and interpret the mean and standard deviation of C. |

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|What is the effect of multiplying or dividing a random variable by a constant? |

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|What is the effect of adding (or subtracting) a constant to a random variable? |

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|Effects if a Linear Transformation on| |

|a Random Variable | |

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|Problem 9 – Scaling a Test |

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|In a large introductory statistics class, the distribution of X = raw scores on a test was approximately normally distributed with a mean of 17.2 and a |

|standard deviation of 3.8. The professor decides to scale the scores by multiplying the raw scores by 4 and adding 10. |

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|(a) Define the variable Y to be the scaled score of a randomly selected student from this class. Find the mean and standard deviation of Y. |

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|(b) What is the probability that a randomly selected student has a scaled test score of at least 90? |

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|Rules for Combining and Random Variables: |

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|Problem 10 – Peachtree Community College Part II |

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|Peachtree Community College also has a campus downtown, specializing in just a few fields of study. Full time students at the downtown campus only take |

|3-unit classes. Let Y = number of units taken in the fall semester by a randomly selected full-time student at the downtown campus. Here is the |

|probability distribution of Y: |

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|Number of Units (Y) |

|12 |

|15 |

|18 |

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|Probability |

|0.3 |

|0.4 |

|0.3 |

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|Calculate and interpret the mean and standard deviation of Y. |

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|Suppose you randomly select 1 full-time student from the main campus and 1 full-time student from the downtown campus. What is the expected value of the |

|sum of credits taken? |

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|Let S = X + Y. It is reasonable to assume that X and Y are independent because each student was selected at random. Therefore, |

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|P (S = 24) = |

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|and P (S = 27) = |

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|Completing the probability distribution of S, we get: |

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|S |

|24 |

|25 |

|26 |

|27 |

|28 |

|29 |

|30 |

|31 |

|32 |

|33 |

|34 |

|35 |

|36 |

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|P (S) |

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|Calculate the mean, variance, and standard deviation of S. |

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|Mean of the Sum of Random Variables | |

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|Variance of the Sum of Independent | |

|Random Variables | |

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|Problem 11 – Peachtree Community College Part III |

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|Let B = the amount spent on books in the fall semester for a randomly selected full-time student at Peachtree Community College. Suppose that[pic]and |

|[pic]. Recall from earlier that C = overall cost for tuition and fees for a randomly selected full-time student at Peachtree Community College and [pic] = |

|832.50 and [pic] = 103. Find the mean and standard deviation of the cost of tuition, fees and books (C + B ) for a randomly selected full-time student at |

|Peachtree Community College. |

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|Problem 12 – Peachtree Community College Part IV |

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|(a) At the downtown campus, full-time students pay $55 per unit. Let Q = cost of tuition for a randomly selected full-time student at the downtown campus. |

|Using the rules for means and variances, find the mean and standard deviation of Q. |

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|(b) Calculate the mean and standard deviation of the total amount of tuition and fees for a randomly selected full-time student at the main campus and for a|

|randomly selected full-time student at the downtown campus. |

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|How do you calculate the mean, | |

|variance, and standard deviation of a| |

|difference of random variables? | |

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|Problem 13 – Peachtree Community College Part V |

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|Suppose we randomly selected one full-time student from each of the two campuses. What are the mean and standard deviation of the difference in tuition and|

|fee charges, D = T – Q ? |

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|Problem 14 – Apple Weight |

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|Suppose that the weights of a certain variety of apples have weights that are approximately Normally distributed with a mean of 9 ounces and a standard |

|deviation of 1.5 ounces. If bags of apples are filled by randomly selecting 12 apples, what is the probability that the sum of the 12 apples is less than |

|100 ounces? |

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|Problem 15 – Put a Lid on It! |

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|The diameter C of a randomly selected large drink cup at a fast-food restaurant follows a Normal distribution with a mean of 3.96 inches and a standard |

|deviation of 0.01 inches. The diameter L of a randomly selected large lid at this restaurant follows a Normal distribution with mean 3.98 and standard |

|deviation of 0.02 inches. For a lid to fit on a cup, the value of L has to be bigger than the value of C, but not by more than 0.06 inches. What’s the |

|probability that a randomly selected large lid will fit on a randomly chosen large drink cup? |

|6.3 Binomial and Geometric Random Variables |

|The Binomial Distribution |

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|What are the conditions for a |1. |

|binomial setting? | |

| |2. |

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| |3. |

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| |4. |

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|Binomial random variable and binomial| |

|distribution | |

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|Problem 16 – Dice, Cars, and Hoops |

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|Determine whether the random variables below have a binomial distribution. Justify your answer. |

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|Roll a fair die 10 times and let X = the number of sixes. |

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|Shoot a basketball 20 times from various distances on the court. Let Y = number of shots made. |

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|Observe the next 100 cars that go by and let C = color. |

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|Deal 10 cards from a shuffled deck and count the number X of red cards. There are 10 observations, and each gives a red or black card. A “success” is a |

|red card. |

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|Problem 17 – Rolling Doubles |

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|In many games involving dice, rolling doubles (the outcomes of two dice are the same) is desirable. The probability of rolling doubles when rolling two dice|

|is 6/36 = 1/6. If X = the number of doubles in 4 rolls of two dice, then X is B (4, 1/6). |

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|What is P (X = 0)? |

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|What is P (X = 1)? |

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|What is P (X = 2)? |

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|What is P (X = 3)? |

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|What is P (X = 4)? |

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|Make a probability distribution table for the random variable X. |

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|Binomial Probability Formula and | |

|Binomial coefficient | |

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|Problem 18 – Defective Switches |

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|Suppose you work for a manufacturing company that just received a shipment of switches. The number of switches that fail inspection has a binomial |

|distribution with n = 10 and p = 0.1. |

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|Find the probability that exactly 0 switches fail. |

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|Find the probability that exactly 1 switch fails. |

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|What is the probability that in the shipment no more than 1 switch fails?[pic] |

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|What is the probability that at least 1 switch fails? |

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|Using the graphing calculator to find| |

|binomial probabilities | |

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|How to find Binomial Probabilities |Step 1: |

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| |Step 2: |

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| |Step 3: |

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|Problem 19 – The Last Kiss |

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|Do people have a preference for the last thing they taste? Researchers at the University of Michigan (Go Blue!) designed a study to find out. The |

|researchers gave 22 students five different Hershey’s Kisses in a random order and asked the student to rate each one. Participants were not told how many |

|Kisses they would be tasting. However, when the 5th and final Kiss was presented, participants were told that it would be their last one. Of the 22 |

|students, 14 of them gave the final Kiss the highest rating. Assume that the probability a person prefers the last kiss is 0.2. |

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|What is the probability that exactly 14 of the 22 participants would prefer the last Kiss they tried? |

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|What is the probability that 14 or more of the 22 participants would prefer the last Kiss they tried? |

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|Problem 20 – Multiple Choice assessment |

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|Suppose you are taking a 10 question multiple choice quiz. Each question has 5 choices. You have no idea how to answer any of them, so you just guess. |

|Let X = # of correct guesses. Find: |

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|1) Probability you get 4 correct |

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|2) Probability you get 2 or more correct |

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|3) Probability you get no more than 4 correct |

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|4) Probability you pass the quiz |

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|Mean and Standard Deviation of a | |

|Binomial Distribution | |

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|Problem 21 – Defective Switches Again |

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|Suppose you work for a manufacturing company that just received a shipment of switches. The number of switches that fail inspection has a binomial |

|distribution with n = 10 and p = 0.1. Calculate and interpret the mean and standard deviation for the binomial random variable. |

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|Problem 22 – Multiple Choice Quiz Again |

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|Suppose you are taking a 10 question multiple choice quiz. Each question has 5 choices. You have no idea how to answer any of them, so you just guess. |

|Let X = # of correct guesses. Calculate and interpret the mean and standard deviation for the binomial random variable. |

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|Problem 23 – NASCAR cards and Cereal Boxes |

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|A cereal company puts 1 of 5 different cards into each box of cereal. Each card features a different driver including Danica Patrick. Suppose that the |

|company printed 20,000 of each card, so there are 100,000 total boxes of cereal with a card inside. If a person bought 6 boxes at random, what is the |

|probability of getting no Danica Patrick cards? |

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|Calculate the actual probability. |

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|Calculate using the binomial distribution. |

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|What do you notice about the answers? |

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|The 10% condition | |

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|What happens as the number of | |

|observations or trials gets larger | |

|and larger? | |

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|What rules must be met in order to |1. |

|use the Normal Approximation? | |

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| |2. |

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|What notation is used with the Normal| |

|Approximation? | |

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|Problem 24 – Teens and Debit Cards |

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|In a survey of 506 teenagers ages 14 to 18, subjects were asked a variety of questions about personal finance. One question asked teens if they had a debit |

|card. Suppose that exactly 10% of all teens aged 14 to 18 have debit cards. Let X = the number of teens in a random sample of size 506 who have a debit |

|card. |

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|Show that the distribution of X is approximately binomial. |

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|Calculate P (X ≤ 40). |

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|Check the conditions for using a Normal approximation in this setting. |

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|Use a Normal distribution to estimate the probability that 40 or few teens in the sample have debit cards. |

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|The Geometric Distribution |

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|What is a geometric random variable? | |

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|What are the conditions for a |1. |

|geometric setting? | |

| |2. |

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| |3. |

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| |4. |

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|Problem 25 – Rolling a 3 on a single die |

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|Suppose we roll a single die until we get a 3. Calculate the following: |

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|P(X = 1) = |

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|P(X = 2) = |

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|P(X = 3) = |

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|P(X = n) = |

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|What is the general formula for | |

|calculating geometric probabilities? | |

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|Problem 25 – Get Out of Jail! |

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|In the board game Monopoly, one way to get out of jail is to roll doubles. Suppose that this was the only way a player could get out of jail. The random |

|variable of interest in this example is Y = number of attempts it takes to roll doubles one time. |

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|Does this meet the geometric setting? |

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|Find the probability that it takes exactly 3 turns to “get out of jail.” |

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|Find the probability that it takes more than 3 turns to “get out of jail” and interpret this value in context. |

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|Geometric Probability on the | |

|Calculator | |

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|Problem 26 – Geometric Probability Practice Problems |

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|From past experience it is known that 3% of accounts in a large accounting population are in error. |

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|What is the probability that the 6th account audited is the first one found with an error? |

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|(ii) What is the probability that the first error is found within the first 6 accounts audited? |

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|A top NHL hockey player scores on 93% of his shots in a shooting competition. What is the probability that the player will not miss the goal until his 20th|

|try? |

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|Suppose we roll a die until we get a 3. Calculate the following: |

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|i) [pic] |

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|ii) [pic] |

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|Some biology students were checking the eye color for a large number of fruit flies. For an individual fly, suppose that the probability of white eyes is ¼,|

|the probability of red eyes is ¾, and that we may treat these flies as independent trials. |

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|What is the probability that the first fly with white eyes is the fourth fly? |

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|What is the probability that at most four flies have to be checked for eye color to observe a white-eyed fly? |

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|What is the probability that at least four flies have to be checked for eye color to observe a white-eyed fly? |

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|The Mean and Variance of a Geometric | |

|Distribution | |

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|Problem 27 – Monopoly |

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|On average, how many rolls should it take to escape jail in Monopoly? What is the variance and standard deviation? |

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|Problem 28 – Rolling a die |

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|If you are rolling a fair die, what is the expected number of rolls before a 1 or a 2 is rolled? What is the variance and standard deviation? |

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